David B. Graves
David B. Graves
Professor of Chemical and Biological Engineering, Princeton University
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Cited by
Cited by
The emerging role of reactive oxygen and nitrogen species in redox biology and some implications for plasma applications to medicine and biology
DB Graves
Journal of Physics D: Applied Physics 45 (26), 263001, 2012
Plasma–liquid interactions: a review and roadmap
PJ Bruggeman, MJ Kushner, BR Locke, JGE Gardeniers, WG Graham, ...
Plasma sources science and technology 25 (5), 053002, 2016
Reactive species in non-equilibrium atmospheric-pressure plasmas: Generation, transport, and biological effects
X Lu, GV Naidis, M Laroussi, S Reuter, DB Graves, K Ostrikov
Physics Reports 630, 1-84, 2016
The 2017 Plasma Roadmap: Low temperature plasma science and technology
I Adamovich, SD Baalrud, A Bogaerts, PJ Bruggeman, M Cappelli, ...
Journal of Physics D: Applied Physics 50 (32), 323001, 2017
Cold atmospheric plasma: charged species and their interactions with cells and tissues
E Stoffels, Y Sakiyama, DB Graves
IEEE Transactions on plasma science 36 (4), 1441-1457, 2008
Plasma chemistry model of surface microdischarge in humid air and dynamics of reactive neutral species
Y Sakiyama, DB Graves, HW Chang, T Shimizu, GE Morfill
Journal of Physics D: Applied Physics 45 (42), 425201, 2012
A continuum model of DC and RF discharges
DB Graves, KF Jensen
IEEE Transactions on plasma science 14 (2), 78-91, 1986
Long-term antibacterial efficacy of air plasma-activated water
MJ Traylor, MJ Pavlovich, S Karim, P Hait, Y Sakiyama, DS Clark, ...
Journal of Physics D: Applied Physics 44 (47), 472001, 2011
The Gaseous Electronics Conference radio‐frequency reference cell: A defined parallel‐plate radio‐frequency system for experimental and theoretical studies of plasma‐processing …
PJ Hargis Jr, KE Greenberg, PA Miller, JB Gerardo, JR Torczynski, ...
Review of Scientific Instruments 65 (1), 140-154, 1994
Low temperature plasma biomedicine: A tutorial review
DB Graves
Physics of Plasmas 21 (8), 080901, 2014
Self-consistent model of a direct-current glow discharge: Treatment of fast electrons
M Surendra, DB Graves, GM Jellum
Physical Review A 41 (2), 1112, 1990
Particle simulations of radio-frequency glow discharges
M Surendra, DB Graves
IEEE transactions on plasma science 19 (2), 144-157, 1991
Sheath structure around particles in low‐pressure discharges
JE Daugherty, RK Porteous, MD Kilgore, DB Graves
Journal of applied physics 72 (9), 3934-3942, 1992
Global model of plasma chemistry in a high density oxygen discharge
C Lee, DB Graves, MA Lieberman, DW Hess
Journal of the Electrochemical Society 141 (6), 1546, 1994
Reactive species from cold atmospheric plasma: Implications for cancer therapy
DB Graves
Plasma Processes and Polymers 11 (12), 1120-1127, 2014
Ozone correlates with antibacterial effects from indirect air dielectric barrier discharge treatment of water
MJ Pavlovich, HW Chang, Y Sakiyama, DS Clark, DB Graves
Journal of Physics D: Applied Physics 46 (14), 145202, 2013
Particle thermophoresis in low pressure glow discharges
GM Jellum, JE Daugherty, DB Graves
Journal of applied physics 69 (10), 6923-6934, 1991
Clinical experience with cold plasma in the treatment of locally advanced head and neck cancer
HR Metelmann, C Seebauer, V Miller, A Fridman, G Bauer, DB Graves, ...
Clinical Plasma Medicine 9, 6-13, 2018
Plasma processing
DB Graves
IEEE transactions on Plasma Science 22 (1), 31-42, 1994
Two‐dimensional fluid model of an inductively coupled plasma with comparison to experimental spatial profiles
JD Bukowski, DB Graves, P Vitello
Journal of Applied Physics 80 (5), 2614-2623, 1996
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